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Zinc availability in relation to selected soil properties in a crude oil polluted eutric tropofluvent
Article 6: Volume 7, Number 2, Pages 261-270 (10), Spring 2010 XML PDF (1066 K)
Authors
M. C. Chukwuma; E. T. Eshett; E. U. Onweremadu; M. A. Okon
Abstract
The study investigated zinc availability in relation to selected soil properties in a crude-oil-polluted Eutric Tropofluvent in Egbema, Southeastern Nigeria. For this purpose, three treatments have been applied: unpolluted soil, polluted without vegetation and polluted with vegetation with five replicates arranged in a randomized complete block design. Guided by transect sampling technique, soil sampling was carried out in June 2008. Soil samples were collected from the three different land units using soil auger at a depth of 0-20 cm. Standard laboratory procedures were adopted in analysing the soils. Soil generated data were subjected to analysis of variance and correlation analysis. Results showed highly significant variation (p = 0.01) in bulk density, porosity, silt: clay ratio, pH, effective cation exchange capacity, percent base saturation, total nitrogen, organic matter, available phosphorus, calcium: magnesium ratio and zinc. It was found that zinc was higher in crude oil polluted soils than in non-polluted soil and it was below critical limits. Zinc availability in relation to selected soil properties in the crude oil polluted soils indicated that clay and organic matter did not affect zinc availability, while pH and effective cation exchange capacity did. A study on zinc dynamics in crude-oil-polluted soils will certainly provide further information on the management of crude-oil-polluted soils since it is one of the key micronutrient for crop productivity.
Keywords
Eutric tropofluvent; Soil properties; Spillage; Tropical soils; Zinc availability
Main Subjects
Eutric; Crude oil; Soil; Zn
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References
1. Alloway, B. J., (1995). Heavy metals in soils. 2nd. Ed. Chapman and Hall, Glasgow, 34.
2. Alvarez-Benedi, J.; Munoz-Carpena, R., (2005). Soil, water, solute process characterization. An integrated approach. C.R.C Press, Florida. 538.
3. Amadi, A.; Bari, Y. U., (1992). Use of poultry manure for the amendment of oil polluted soils in relation to growth of maize. Environ. Int., 18, 521-527 (7 Pages), DOI: 10.1016/0160-4120(92)90271-5. Abstract | Full Text
4. Amadi, A; Dickson, A. A.; Maate, G. O., (1993). Remediation of oil polluted soils: Effect of organic and inorganic nutrient supplements on the performance of Maize. J. Water Air, Soil Pollut. 66 (1-2), 59-76 (18 Pages), DOI: 10.1007/BF00477060. Abstract | Full Text
5. Atuanya, E. J., (1987). Effect of oil pollution on physical and chemical properties of soil: A case study of waste oil contaminated delta soil in Bendel State, Nigeria. J. Appl. Sci., 55, 155-176 (22 Pages)
6. Bellamy, P., (2007). Dictionary of environment. Academic Publishers, New Delhi, India
7. Brady, N. C.; Weil, R. R., (1999). The nature and properties of soil. 12th. Ed. Prentice-Hall, Inc. New Jersey 07458.
8. Bremner, J. M., (1996). Nitrogen total. Sparks, D. L., (Ed.). Methods of soils analysis, part 3, chemical method. 2nd Ed, SSSA Book Series No. 5, SSSA, Madison, W.I., , 1085-1121 (37 Pages)
9. Buysse, W.; Stern, R.; Coe, R.; McDermott, B.; Muchiri, S.; Okello, M.; Kurji, P.; Obudho, E.; Mong’are, P., (2005). GenStat. 8th. Ed. for everyday use. ICRAF Nairobi, Kenya. 114.
10. Eshett, E. T.; Omueti, A. I.; Juo, A. S. R., (1990). Physicochemical, morphology and clay mineralogical properties of soils overlying basement complex rocks in Ogoja, northern cross river State of Nigeria. Soil Sci. Plant Nutr., 36 (2), 203-214 (12 Pages) Abstract
11. FDALR, (1985). The reconnaissance soil survey of Imo state, Nigeria, Federal Department of Agricultural Land Resources (1:250,000). Soil report, 133.
12. Gee, G. W.; Or, D., (2002). Particle size distribution. Dane, J. H.; Topp, G. C. (Eds). Methods of soil analysis, part 4. Physical methods. Soil Sci. Soc. Am Book Series No.5, ASA and SSSA, malison, WI., , 255-293 (39 Pages)
13. Grossman, R. B.; Reinsch, T. G., (2002). Bulk density and linear extensibility. Dane, J. H.; Topp, G. C. (Eds.). Methods of the soil analysis part 4. Physical methods. Soil Sci. Soc. Am. Book Series No.5, ASA and SSSA, Madison, WI., , 201-228 (28 Pages)
14. Hendershort, W. H., Lalande, H.; Duquette, M., (1993). Soil reaction and exchangeable acidity. Carter M. R. (Ed.). Soil Sampling and methods of soil analysis, Canadian Soc. Soil Sci., Lewis Publishers, London, , 141-145 (5 Pages)
15. Isirimah, N. O.; Zuofa, K.; Loganathan, P., (1989). Effect of crude oil on maize performance and soil chemical properties in humid forest zone of nigeria. Discov. Innovat., 1 (3), 23-34 (12 Pages)
16. Jungerius, P. D.; Levellt, T. W., (1964). Clay mineralogy of soils over sedimentary rocks in Eastern Nigeria. Soil Sci., 97 (2), 89-95 (7 Pages)
17. Kabata-Pendias, A.; Pendias, H., (1992). Trace elements in soils and plants. 2nd. Ed., CRC Press, Boca Raton, Fla.
18. Kiekens, L., (1986). Calculated Langmuir parameters for Zn adsorption by soils. Academiae Analecta.
19. Ladousse, A.; Tramier, B., (1991). Results of 12 years of research in spilled oil bioremediation, Inipol EAP22. Proceeding 1991 Oil Spill Conference, American petroleum Institute, Washington, DC.
20. Landon, J. R., (1991). Booker tropical manual: A handbook for soil surveyand agricultural land evaluation in the tropic and subtropics. Longman Inc., New York.
21. Leschber, R.; Davis, R. D.; L’Hermite, P., (1985). Chemical methods for assessing bioavailable metals in sludges and soils. Elsevier, Amsterdam. Abstract
22. Lorenz, S. E.; Hamon, R. E.; Holm, P. E.; Domingues, H. C.; Sequeiria, E. M.; Christensen, T. H.; McGrath, S. P., (2000). Cadmium and zinc speciation in heavy metal contaminated soils from six European countries. Bioresour. Tech., 71 (3), 254-259 (6 Pages)
23. Mclean, E. V., (1982). Aluminum. Page, A. L., Miller, R. H.; Keeney, D. R. (Eds.). Methods of soil analysis, part 2, Am. Soc. Agron. Madison, WI., , 978-998 (21 Pages)
24. Nabulo, G.; Oryem Origa, H.; Nasinyama, G. W.; Cole, D., (2008). Assessment of Zn, Cu, Pb and Ni contamination in wetland soils and plants in the lake basin. Int. J. Environ. Sci. Tech., 5 (1), 65-74 (10 Pages) Abstract | Full Text (787 K)
25. Nelson, D. W.; Sommers, L. E., (1982). Total carbon, organic carbon and organic matter. Page, A. L.; Miller, R. H.; Keeney, D. R. (Eds.). Methods of soil analysis, part 2, Am. Soc. Agron., Madison WI, , 539-579 (41 Pages)
26. NMHPPE, (1991). Environmental quality standards for soil and water. Netherlands Ministry of Housing, Physical Planning and Environment. Leidschendam, Netherlands,
27. Nwilo, P. C.; Badejo, O. T., (2001). Impacts of oil spills along the Nigeria Coast. Abstract
28. Obi, M. E., (1990). Soil physics. A compendium of lectures. Department of Soil Science, U.N.N. 103.
29. Ogaji, S. O. T; Ayotamuno, M. J; Kogbara, R. B.; Probert, S. D., (2005). Bioremediation of a crude oil polluted agricultural soil at Port-Harcourt, Nigeria. School of Engineeeering, Cranfield University, Bedfordshire, UK.
30. Ogundiran, O. O.; Afolabi, T. A., (2008). Assessment of the physicochemical parameters and heavy metals toxicity of leachates from municipal solid waste open dumpsite. Int. J. Environ. Sci. Tech., 5 (2), 243-250 (8 Pages) Abstract | Full Text (295 K)
31. Okafor, E. C.; Opuene, K., (2007). Preliminary assessment of trace metals and polycyclic aromatic hydrocarbons in the sediments. Int. J. Environ. Sci. Tech., 4 (2), 233-240 (8 Pages) Abstract | Full Text (141 K)
32. Okpokwasili, G. C.; Odokuma, L. O., (1990). Effect of salinity on biodegradation of oil spills dispersants. Waste Manage., 10 (2), 141-146 (6 Pages)
33. Olson, S. R.; Sommers, L. E., (1990). Phosphorus. Page, A. L. (Ed.). Methods of Soil Analysis. Parts 2, Agron., Monogr. No. 9 Madison, WI., , 403-431 (29 Pages)
34. Onweremadu, E. U., (2008). Physico-chemical charaterisation of a farmland affected by wastewater in relation to heavy metals. J. Zhejiang U. Sci. A., 9 (3), 366-372 (7 Pages), DOI: 10.1631/jzus.A072210. Abstract | Full Text (239 K)
35. Onweremadu, E. U., (2007). Pedology of near gully sites and its implications on the erodibility of soils in central South- Eastern Nigeria. Res. J. Environ. Sci., 1 (2), 71-76 (6 Pages)
36. Onweremadu, E. U.; Duruigbo, C. I., (2007). Assessment of cadmium concentration of crude oil polluted arable soils. Int. J. Environ. Sci. Tech., 4 (3), 409-412 (4 Pages) Abstract | Full Text (53 K)
37. Orajaka, S. O., (1975). Geology. In: Nigeria in maps: Eastern States. Ofomata, G. E. K. (Ed.). Ethiope Publishers. Benin city Nigeria, , 5-7 (3 Pages)
38. Rowell, M. J., (1977). The Effect of crude oil spills on soils: A review of literature. Toogood, J. A. (Ed.), The reclamation of agricultural soils after oil spills, part 1, Edmonton, Canada, , 1-33 (33 Pages)
39. Schwendinger, R. B., (1968). Reclamation of soil contaminated with oil. J. Inst. Petrol., 54, 535-543 (9 Pages)
40. Shuman, L. M., (1975). The effect of soil properties on zinc adsorption by soils. Soil Sci. Soc. Am. J., 39, 454-458 (5 Pages) Abstract
41. Singer, M. J.; Munns, D. N., (1999). Soils, an introduction. 4th. Ed. Prentice-Hall, Inc. New Jersey,
42. Smolders, E.; Buekers, J.; Oliver, I.; McLaughlin, M. J., (2004). Soil properties affecting toxicity of zinc to soil microbial properties in laboratory-spiked and field-contaminated soils. Environ. Toxic. Chem., 23 (11), 2633-2640 (8 Pages), DOI: 10.1897/04-27. Abstract | Full Text
43. Suthar, S.; Singh, S., (2008). Vermicomposting of domestic waste by using two epigeic earthworms (Perionyx excavatus and Perionyx sansibaricus). Int. J. Environ. Sci. Tech., 5 (1), 99-106 (8 Pages) Abstract | Full Text
44. Tiller, K. G.; Hodgson, J. F., (1962). The specific sorption of cobalt and zinc by layer silicates. Clay. Clay Miner., 9, 393-403 (11 Pages)
45. Udo, E. J.; Fayemi, A. A. A., (1975). The effect of oil pollution of soil on germination, growth and nutrient uptake of corn. J. Environ. Qual., 4, 537-540 (4 Pages) Abstract | Full Text
46. Unamba-Oparah, I., (1982). Comparison of the carbon and nitrogen contents and their relationships to other soil properties in some important soils of Southeastern Nigeria. Beitrage trop. Landwirtsch. Veterinarmed, 20, H.2, , 167-176 (10 Pages)
47. Unamba-Oparah, I.; Wilson, M. J.; Smith, B. F. L., (1987). Exchangeable cations and mineralogy of some selected Nigerian soils. Appl. Clay Sci., 2 (2), 105-128 (24 Pages), DOI: 10.1016/0169-1317(87)90002-0. Abstract | Full Text (1472 K)
48. Unger, P. W.; Kaspar, T. C., (1994). Soil compaction and root growth. Rev. Agron. J., 86, 759-766 (8 Pages) Abstract